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Saturn’s ocean moon Enceladus could support life—researchers are working out how to detect extraterrestrial cells there


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Saturn’s ocean moon Enceladus could support life—researchers are working out how to detect extraterrestrial cells there

Scientists could one day find traces of life on Enceladus, an ocean-covered moon orbiting Saturn. Credit:
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,
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Saturn has

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—more than any other planet in the solar system—but
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stands out. It appears to have the ingredients for life.

From 2004 to 2017,

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—a ****** mission between NASA, the ********* Space Agency and the Italian Space Agency—investigated Saturn, its rings and moons. Cassini delivered spectacular findings. Enceladus, only 313 miles (504 kilometers) in diameter, harbors a liquid water ocean beneath its icy crust that spans the entire moon.

Geysers at the moon’s south pole ****** gas and ice grains formed from the ocean water into space.

Though the Cassini engineers didn’t anticipate analyzing ice grains that Enceladus was actively emitting, they did pack a

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on the spacecraft. This instrument measured the emitted ice grains individually and told researchers about the composition of the subsurface ocean.

As

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who studies ice grains from Enceladus, I’m interested in whether there is life on this or other icy moons. I also want to understand how scientists like me could detect it.

Ingredients for life

Just like Earth’s oceans,

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, most of which is
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, commonly known as table salt. The ocean also contains various carbon-based compounds, and it has a
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that generates energy within the moon. Liquid water, carbon-based chemistry and energy are all key ingredients for life.

In 2023, I and others scientists found phosphate, another life-supporting compound, in ice grains originating from Enceladus’ ocean.

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for all life on Earth. It is part of DNA, cell membranes and bones. This was the first time that scientists detected this compound in an extraterrestrial water ocean.

Enceladus’ rocky core likely interacts with the water ocean through

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. These hot, geyserlike structures protrude from the ocean floor. Scientists predict that a similar setting may have been the birthplace of life on Earth.

Detecting potential life

As of now, nobody has ever detected life beyond Earth. But scientists agree that Enceladus is a very promising place to look for life. So, how do we go about looking?

In a paper published in March 2024,

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that simulated whether dust analyzer instruments on spacecraft could detect and identify traces of life in the emitted ice grains.

To simulate the detection of ice grains as dust analyzers in space record them, we used a laboratory setup on Earth. Using this setup, we injected a tiny water beam that contained bacterial cells into a vacuum, where the beam disintegrated into droplets. Each droplet contained, in theory, one bacterial cell.

Then, we shot a laser at the individual droplets, which created charged ions from the water and the cell compounds. We measured the charged ions using a technique called

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. These measurements helped us predict what dust analyzer instruments on a spacecraft should find if they encountered a bacterial cell contained in an ice grain.

We found these instruments would do a good job identifying cellular material. Instruments designed to analyze single ice grains should be able to identify bacterial cells, even if there is only 0.01% of the constituents of a single cell in an ice grain from an Enceladus-like geyser.

The analyzers could pick up a number of potential signatures from cellular material, including amino acids and fatty acids. Detected

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represent either fragments of the cell’s proteins or metabolites, which are small molecules participating in chemical reactions within the cell.
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are fragments of lipids that make up the cell’s membranes.

In our experiments, we used a bacteria named

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. Cells of this culture are extremely tiny—the same size as cells that might be able to fit into ice grains emitted from Enceladus. In addition to their small size, these cells like cold environments, and they need only a few nutrients to survive and grow, similar to how life adapted to the conditions in Enceladus’ ocean would probably be.

The specific dust analyzer on Cassini didn’t have the analytical capabilities to identify cellular material in the ice grains. However, scientists are already designing instruments with much greater capabilities for potential future Enceladus missions. Our

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will inform the planning and design of these instruments.

Future missions

Enceladus is one of the main targets for future missions from NASA and the ********* Space Agency. In 2022, NASA announced that

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had the second-highest priority as they picked their next big missions—a Uranus mission had the highest priority.

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that Enceladus is the top target for its next big mission. This mission would likely include a highly capable dust analyzer for ice grain analysis.

Enceladus isn’t the only moon with a liquid water ocean. Jupiter’s moon Europa also has an ocean that spans the entire moon underneath its icy crust. Ice grains on Europa float up above the surface, and some scientists think Europa may even have geysers like Enceladus that ****** grains into space. Our research will also help study ice grains from Europa.

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will visit Europa in the coming years. Clipper is scheduled to launch in October 2024 and arrive at Jupiter in April 2030. One of the two mass spectrometers on the spacecraft, the
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, is designed for single ice grain analysis.

Our study demonstrates that this instrument will be able to find even tiny fractions of a bacterial cell, if present in only a few emitted ice grains.

With these space agencies’ near-future plans and the results of our study, the prospects of upcoming space missions visiting Enceladus or Europa are incredibly exciting. We now know that with current and future instrumentation, scientists should be able to find out whether there is life on any of these moons.

Provided by
The Conversation


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Saturn’s ocean moon Enceladus could support life—researchers are working out how to detect extraterrestrial cells there (2024, April 17)
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Science, Physics News, Science news, Technology News, Physics, Materials, Nanotech, Technology, Science
#Saturns #ocean #moon #Enceladus #support #liferesearchers #working #detect #extraterrestrial #cells

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